ent was 81.2%. Older patients' age, smaller thyroid volume and higher fT4 level were independent predictors of therapy success. Smaller thyroid volume was also a predictor of the favorable time-related outcome. Statistical models obtained in this work may be used to prospectively estimate the chance of efficient RIT for GD in pediatric patients.
The efficacy of dosimetry-based RIT in children and adolescents with GD 6 months after treatment was 81.2%. Older patients' age, smaller thyroid volume and higher fT4 level were independent predictors of therapy success. Smaller thyroid volume was also a predictor of the favorable time-related outcome. Statistical models obtained in this work may be used to prospectively estimate the chance of efficient RIT for GD in pediatric patients.Congenital hyperinsulinusm is rare disease characterized high secretion of insulin by pancreatic beta cells leading to the development of hypoglycemia. Persistent and transient forms of hyperinsulinism are distinguished. Transient hyperinsulinism are the most common cause of severe hypoglycemia in newborns. The etiology of this disease is not known. There are risk factors for the development of transient hyperinsulinism asphyxia at birth, prematurity, maternal diabetes, low or large weight by gestation. Hypoglycemia with hyperinsulinism is severe. Therefore, early diagnosis and therapy especially during the neonatal period, are necessary.The article describes 3 clinical cases of transient hyperinsulinism in children with different gestational age and concomitant pathology. All children recevied insulinostatic therapy with diazoxide with a positive effect euglycemia without glucose requirement . In all children, therapy was completed subsequently. At the time of publication of the article, the physical and psychomotor development of children is normal.Continuous subcutaneous insulin infusion (CSII) is an effective method for optimizing glycemic control in children with type 1 diabetes mellitus (DM1). However, the use of CSII does not always result in adequate glycemic control. Telehealth can be applied as one of the methods to improve the effectiveness of treatment.
To evaluate the use of remote medical support of children and adolescents with DM1 and its influence on glycemic control, quality of life, and incidence of acute complications of DM1.
We conducted a 24-week multi-institutional prospective open-label controlled clinical trial. 180 children and adolescents were included in this study and divided into the following categories 1) age 8-18 years; 2) DM1 at least 1 year; 3) pump insulin therapy Medtronic Paradigm (Medtronic MiniMed, USA) at least 6 months; 4) self-monitoring of glycemia at least 4 times a day and replacement of the insulin pump infusion system at least once every 3 days; 5) inadequate glycemic control of DM1 the level of glycatn the TC group (p&amp;lt;0.05). The proportion of patients who reached the target level of HbA1c (&amp;lt;7.5%) was significantly higher in the RC group (32%) compared to the TC group (12.5%, p&amp;lt;0.05). During the study, the incidence of DKA and severe hypoglycemia in the RC group was statistically significantly lower.
Remote monitoring in children with DM1 resulted in significant improvements in glycemic control (HbA1c, glycemic variability, and hypoglycemic frequency). The accumulation of evidence on the effectiveness and safety of telehealth in DM should contribute to implementing this approach in practical health care.
Remote monitoring in children with DM1 resulted in significant improvements in glycemic control (HbA1c, glycemic variability, and hypoglycemic frequency). The accumulation of evidence on the effectiveness and safety of telehealth in DM should contribute to implementing this approach in practical health care.One of the variants of congenital dysfunction of the adrenal cortex is a deficiency of the enzyme P450scc, which catalyzes the first stage of steroidogenesis. This is a rare autosomal recessive disease, the classic manifestation of which is primary adrenal insufficiency with a deficiency of gluco-and mineralocorticoids and a violation of the synthesis of sex steroids, which usually leads to a complete lack of masculinization in patients with karyotype 46, XY and hypergonadotropic hypogonadism in both sexes. Previously, it was suggested That p450scc deficiency is incompatible with the normal course of pregnancy, since the enzyme is expressed in the placenta, where it is necessary for the synthesis of progesterone, the main pregnancy hormone, and, consequently, the birth of a child with A p450scc deficiency is impossible. However, the literature describes clinical cases of p450scc deficiency with partially preserved enzyme function, which explains the normal course of pregnancy. Whereas cases of confirmed p450scc deficiency with zero enzyme activity are unique, not being explained until now. We present a description of severe p450scc deficiency in a child born from a dizygotic twin pregnancy in which the second Sib was healthy. It is possible that the preserved hormonal function of the second placenta and (or) treatment with progesterone analogs during gestation contributed to gestation in this rare form of steroidogenesis disorder.Insulin resistance accelerates the aging process, but its speed depends on the individual characteristics of the metabolism. One of the reasons for the different aging rates in individuals with insulin resistance is the initially different "genetic protection" of cells, which many scientists associate with replicative cellular aging.
to study the relationship between the state of carbohydrate metabolism and markers of replicative cell aging in individuals with different sensitivity to insulin.
The observation study included 305 patients. The parameters of glucose metabolism and telomere biology were studied.
The mean age of the patients was 51.5±13.3 years. Patients were divided into three groups depending on presence of insulin resistance healthy, with insulin resistance and with type 2 diabetes. https://www.selleckchem.com/products/gilteritinib-asp2215.html The mean age of healthy patients was 48.82±13.87 years, in insulin resistance group - 53.04±12.8, in 2 diabetes mellitus - 58.4±7.90. The median telomere length was 9.76. The median telomerase activity was 0.